Abstract
Texture evolves at almost every stage of material processing. In fact, it is very difficult to avoid texture completely at any stage of processing. Metal castings have very clear and characteristic textures which depend on material, its purity, as well as on the solidification conditions.
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Walton D, Chalmers B (1959) Origin of the preferred orientation in the columnar zone of ingots. Trans Am Inst Min Metall Pet Eng 215:447–456
Gandin CA, Rappaz M, West D, Adams BL (1995) Grain texture evolution during the columnar growth of dendritic alloys. Metall Mater Trans A 26A:1543–1551
Nix FC, Schmid E (1929) The structure of cast metals and alloys. Z Metallkd 21:286–292
Rosenberg A, Tiller W (1957) The relationship between growth forms and the preferred direction of growth. Acta Metall 5:565–573
Barrett C, Massalski T (1980) Structure of metals. Pergamon Press, New York
Edmunds G (1940) Grain orientation of cast polycrystalline zinc, cadmium and magnesium. Trans Am Inst Min Metall Pet Eng 1244:13
Hu H (1974) Texture of metals. Texture 1:233–258
Porter DA, Easterling KE (1992) Phase transformations in metals and alloys, CRC
Burgers WG (1934) On the process of transition of the cubic-body-centered modification into the hexagonal-close-packed modification of zirconium. Physica 1:561–586
Gross R, Moller H (1923) Crystal growth in tubular space. Z Phys 19:375–387
Winegard WC (1961) Fundamentals of the solidification of metals. Met Rev 6:57–99
Chalmers B (1954) Melting and freezing. Trans Am Inst Min Met Eng 200:519–532
Roy S, Suwas S, Tamirisakandala S, Miracle DB, Srinivasan R (2011) Development of solidification microstructure in boron-modified alloy Ti-6Al-4V-0.1B. Acta Mater 59:5494–5510
Xu PG, Yin F, Nagai K (2006) Solidification cooling rate and as-cast textures of low-carbon steel strips. Mater Sci Eng A 441:157–166
D’Souza N, Ardakani MG, McLean M, Shollock BA (2000) Directional and single-crystal solidification of Ni-base superalloys: part I. The role of curved isotherms on grain selection. Metall Mater Trans A 31:2877–2886
Bain EC (1924) Nature of martensite. Trans Am Inst Min Met Eng 70:25–47
Kurdjumov GV, Sachs G (1930) Crystallographic orientation relationship between α- and γ- Fe. Ann Phys 64:325
Nishiyama Z (1934) X-ray investigation of the mechanism of the transformation from face-centered cubic lattice to body-centered cubic. Sci Rep Tohoku Univ 23:637–664
Wassermann G (1933) Influence of the alpha-gamma transformation of an irreversible nickel steel on crystal orientation and tensile strength. Archiv für das Eisenhüttenwesen 6:347–351
Greninger AB, Troiano AR (1949) The mechanism of martensite formation. Met Trans 185:590–598
Turteltaub S, Suiker A (2006) A multiscale thermomechanical model for cubic to tetragonal martensitic phase transformations. Int J Sol Struct 43:4509–4545
Inagaki H (1984) Formation of transformation textures in control-rolled low carbon steels. Z Metallkd 75:510–516
Inagaki H (1988) Effect of the alloying element on the development of the rolling texture in high purity Iron. Z Metallkd 79:164–173
Ray RK, Jonas JJ (1990) Transformation textures in steels. Inter Mater Rev 35:1–36
Inagaki H (1981) Paper 5(I)-2 presented at sixth international conference on texture of materials, p 149
Gey N, Humbert M, Philippe MJ, Combres Y (1996) Investigation of the alpha- and beta-texture evolution of hot rolled Ti-64 products. Mater Sci Eng A 219:80–88
Gey N, Humbert M, Philippe MJ, Combres Y (1997) Modeling the transformation texture of Ti-64 sheets after rolling in the beta-field. Mater Sci Eng A 230:68–74
Zhu ZS, Gu JL, Chen NP (1994) On the phase-transformation texture in commercially pure titanium sheet. Scripta Metall Mater 30:605–609
Zhu ZS, Gu JL, Chen NP (1995) Variant selection and phase-transformation texture in titanium. J Mater Sci Lett 14:1153–1154
Zhu ZS, Gu JL, Chen NP (1995) Transition textures induced by cyclic phase-transformation in titanium sheet. Scripta Metall Mater 32:499–504
Merkel S, Wenk H-R, Gillet P, Mao H-K, Hemley RJ (2004) Deformation of polycrystalline iron up to 30 GPa and 1000 K. Phys Earth Planet Interiors 145:239–251
Roy S, Suwas S, Tamirisakandala S, Srinivasan R, Miracle D (2012) Microstructure and texture evolution during β extrusion of boron modified Ti-6Al-4V alloy. Mater Sci Eng, A 540:152–163
Moustahfid H, Gey N, Humbert M, Philippe MJ (1997) Study of the beta-alpha phase transformations of a Ti-64 sheet induced from a high-temperature beta state and a high-temperature alpha+beta state. Metall Mater Trans A 28:51–61
Bunge HJ, Humbert M, Welch PI (1983) Texture transformation with variant selection. Scripta Metall 17:1403–1405
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Suwas, S., Ray, R.K. (2014). Texture Evolution During Solidification and Solid-State Transformation. In: Crystallographic Texture of Materials. Engineering Materials and Processes. Springer, London. https://doi.org/10.1007/978-1-4471-6314-5_4
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DOI: https://doi.org/10.1007/978-1-4471-6314-5_4
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